G-MINI-CX Picosecond Nd:YAG Lasers
Description
Our mini lasers are Pulse Compression sub-nanosecond and picosecond transform-limited SLM Nd:YLF and Nd:YAG Lasers. The lasers produce TEM00 near-diffraction limited single-longitudinal mode radiation at a variety of energies, wavelengths and repetition rates. Design features include highly stable electro-optically or passively Q-switched ring-cavity oscillators, pulse compression, amplification, harmonic generation. Fundamental lasing is at either the 1053nm line or at 1319nm. Below are listed the most popular laser configurations. In addition to these models custom mini lasers are available that cover a large parameter space.
G-MINI-CX Picosecond Nd:YAG Lasers
Specifications |
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|---|---|
| Wavelength: | 633 nm |
| Pulse Energy: | 5 mJ |
| Pulse Energy Stability: | N/A % |
| Pulse Duration: | 0.035 ns |
| Repetition Rate: | 5-10Hz |
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Frequently Asked Questions
Yes, custom mini lasers are available that cover a large parameter space. Please contact us for more information on custom laser configurations.
A picosecond laser is a laser that emits pulses of light that are one trillionth of a second in duration.
Harmonic generation is a process in which the frequency of a laser beam is multiplied by passing it through a nonlinear optical crystal. This allows for the generation of laser light at wavelengths that are not directly accessible from the laser source.
Pulse compression is a technique used to shorten the duration of laser pulses. This is achieved by using a series of optical elements that manipulate the spectral and temporal characteristics of the pulse.
TEM00 refers to the transverse electromagnetic mode of the laser beam, which is the most fundamental and stable mode. Near-diffraction limited radiation means that the laser beam has a very low divergence angle and is nearly perfectly collimated.